gear transmission
简明释义
齿轮传动
英英释义
A mechanism that transmits power and motion between different gears in a machine, allowing for the adjustment of speed and torque. | 一种在机器中传递不同齿轮之间的动力和运动的机制,允许调整速度和扭矩。 |
例句
1.The design of the gear transmission 齿轮传动 can significantly affect the vehicle's acceleration.
设计的齿轮传动会显著影响车辆的加速性能。
2.Many racing cars rely on advanced gear transmission 齿轮传动 systems for better performance.
许多赛车依赖先进的齿轮传动系统以获得更好的性能。
3.Understanding how gear transmission 齿轮传动 works is crucial for mechanics.
理解齿轮传动的工作原理对机械师来说至关重要。
4.The efficiency of the gear transmission 齿轮传动 system in this car is remarkable.
这辆车的齿轮传动系统效率非常高。
5.The bicycle uses a simple gear transmission 齿轮传动 to change speeds.
这辆自行车使用简单的齿轮传动来改变速度。
作文
The concept of gear transmission is fundamental in the field of mechanical engineering and automotive design. It refers to the process of transferring power from one part of a machine to another through the use of gears. Gears are toothed wheels that interlock with each other, allowing for the efficient transfer of energy. In vehicles, gear transmission is crucial as it determines how the engine's power is converted into motion. Without an effective gear transmission system, a vehicle would struggle to accelerate or maintain speed, making it essential for performance and efficiency.There are various types of gear transmission systems, including manual and automatic transmissions. Manual transmissions require the driver to shift gears manually, providing more control over the vehicle's power output. This type of gear transmission is often preferred by driving enthusiasts who enjoy the engagement of shifting gears themselves. On the other hand, automatic transmissions handle gear shifting automatically, allowing for a smoother driving experience. The choice between these two types often depends on personal preference and driving conditions.In addition to traditional gear systems, advancements in technology have led to the development of continuously variable transmissions (CVTs) and dual-clutch transmissions (DCTs). CVTs provide a seamless transition between gears, allowing for optimal engine performance at all speeds. DCTs, which use two separate clutches for odd and even gears, enable faster gear shifts compared to conventional automatic transmissions. Both of these innovations enhance the efficiency of gear transmission systems in modern vehicles.The efficiency of gear transmission is not only important for performance but also for fuel economy. A well-designed transmission system can significantly reduce fuel consumption by ensuring that the engine operates within its optimal RPM range. This is particularly relevant in today’s context, where environmental concerns and rising fuel prices make it imperative for manufacturers to focus on fuel-efficient technologies.Moreover, gear transmission systems play a vital role in various industrial applications beyond automobiles. They are used in machinery, robotics, and even in household appliances. Understanding the principles of gear transmission can help engineers design more efficient systems that improve productivity and reduce energy consumption.In conclusion, gear transmission is a critical aspect of mechanical systems that enables the transfer of power efficiently and effectively. Whether in vehicles or industrial equipment, the design and functionality of gear transmission systems have a significant impact on performance, fuel efficiency, and overall effectiveness. As technology continues to evolve, we can expect further innovations in gear transmission systems that will enhance their capabilities and contribute to a more sustainable future. Therefore, grasping the concept of gear transmission is essential for anyone interested in engineering, automotive design, or mechanics in general.
“齿轮传动”的概念在机械工程和汽车设计领域中是基础性的。它指的是通过齿轮将机器的一个部分的动力转移到另一个部分的过程。齿轮是互锁的齿轮,允许有效地传递能量。在车辆中,“齿轮传动”至关重要,因为它决定了发动机的动力如何转化为运动。如果没有有效的“齿轮传动”系统,车辆将难以加速或保持速度,这使其对性能和效率至关重要。“齿轮传动”系统有多种类型,包括手动和自动变速器。手动变速器需要驾驶员手动换挡,提供更多对车辆动力输出的控制。这种类型的“齿轮传动”通常受到驾驶爱好者的青睐,他们喜欢自己换挡的参与感。另一方面,自动变速器则自动处理换挡,允许更平稳的驾驶体验。两种类型之间的选择往往取决于个人偏好和驾驶条件。除了传统的齿轮系统,技术的进步还导致了无级变速器(CVT)和双离合变速器(DCT)的发展。CVT提供了齿轮之间的无缝过渡,使发动机在所有速度下都能达到最佳性能。DCT使用两个独立的离合器来处理奇数和偶数齿轮,使换挡速度比传统自动变速器更快。这些创新都提高了现代车辆中“齿轮传动”系统的效率。“齿轮传动”的效率不仅对性能重要,还对燃油经济性至关重要。一个设计良好的变速器系统可以通过确保发动机在最佳转速范围内运行,从而显著减少燃油消耗。这在今天的背景下尤为相关,因为环境问题和燃油价格的上涨使得制造商必须专注于节能技术。此外,“齿轮传动”系统在汽车之外的各种工业应用中也发挥着重要作用。它们被用于机械、机器人甚至家用电器。理解“齿轮传动”的原理可以帮助工程师设计出更高效的系统,提高生产力,减少能耗。总之,“齿轮传动”是机械系统中一个关键的方面,它能够有效且高效地传递动力。无论是在车辆还是工业设备中,“齿轮传动”系统的设计和功能对性能、燃油效率和整体有效性都有重大影响。随着技术的不断发展,我们可以期待“齿轮传动”系统进一步的创新,将增强它们的能力,并为更可持续的未来做出贡献。因此,掌握“齿轮传动”的概念对于任何对工程、汽车设计或机械学感兴趣的人来说都是必不可少的。
相关单词
